def test_synintegration(filename, target_cell, source_type): sim = Simulation('synintegration') cell = SpinyStellate(SpinyStellate.prototype, sim.model.path + '/SpinyStellate') vm_table = cell.comp[cell.presyn].insertRecorder('Vm', 'Vm', sim.data) # Create a common spike gen object sp = moose.SpikeGen('spike', sim.model) sp.threshold = 0.0 sp.edgeTriggered = 1 sptab = moose.Table('spike', sim.data) sptab.stepMode = 3 sptab.connect('inputRequest', sp, 'state') (comp_indices, syntype, gbar, tau1, tau2, Ek, ) = \ get_syninfo(filename, target_cell, source_type) # Set up the synapses for ii in range(len(comp_indices)): print '%d\t%s\t%g\t%g\t%g\t%g' % (comp_indices[ii], syntype[ii], gbar[ii], tau1[ii], tau2[ii], Ek[ii]) comp = cell.comp[comp_indices[ii]] weight = 1.0 if syntype[ii] == 'nmda': chan = moose.NMDAChan('nmda_from_%s' % (source_type), comp) chan.MgConc = 1.5 weight = gbar[ii] else: chan = moose.SynChan('%s_from_%s' % (syntype[ii], source_type), comp) chan.Gbar = gbar[ii] chan.tau1 = tau1[ii] chan.tau2 = tau2[ii] chan.Ek = Ek[ii] comp.connect('channel', chan, 'channel') sp.connect('event', chan, 'synapse') count = chan.numSynapses if source_type == 'TCR': chan.delay[count-1] = 1e-3 # thalamocortical delay else: chan.delay[count-1] = 0.05e-3 # default delay chan.weight[count-1] = weight gktable = moose.Table('%s_%s_%s' % (cell.name, comp.name, chan.name), sim.data) gktable.stepMode = 3 gktable.connect('inputRequest', chan, 'Gk') pulsegen = moose.PulseGen('pulse', sim.model) pulsegen.firstDelay = 3.0 pulsegen.firstLevel = 1.0 pulsegen.firstWidth = 1e-3 pulsegen.trigMode = moose.FREE_RUN pulsegen.connect('outputSrc', sp, 'Vm') ptable = moose.Table('pulse', sim.data) ptable.stepMode = 3 ptable.connect('inputRequest', pulsegen, 'output') sim.schedule(simdt=1e-6, plotdt=1e-6) sim.run(10.0) sim.save_data_h5(filename.replace('network_', 'synintegration_'))
def threecell_test(): sim = Simulation('threecell') tcr_ix = netdata.celltype.index('TCR') ss_ix = netdata.celltype.index('SpinyStellate') basket_ix = netdata.celltype.index('DeepBasket') ss = SpinyStellate(SpinyStellate.prototype, sim.model.path + '/SpinyStellate') tcr = TCR(TCR.prototype, sim.model.path + '/TCR') basket = DeepBasket(DeepBasket.prototype, sim.model.path + '/DeepBasket') cells = [ss, tcr, basket] for postcell in cells: for precell in cells: if precell == postcell: continue for syntype in ['ampa', 'nmda', 'gaba']: syn = make_synapse(precell, postcell, syntype) if syn is not None: tab = record_data(sim.data, 'gk_%s_%s' % (postcell.name, syn.name), syn, 'Gk') record_data(sim.data, 'Vm_%s' % (postcell.name), postcell.comp[postcell.presyn], 'Vm') pulsegen = moose.PulseGen('pulse', sim.model) pulsegen.firstDelay = 3.0 pulsegen.firstLevel = 1e-9 pulsegen.firstWidth = 2e-3 pulsegen.trigMode = moose.FREE_RUN pulsegen.connect('outputSrc', tcr.soma, 'injectMsg') ptable = moose.Table('pulse', sim.data) ptable.stepMode = 3 ptable.connect('inputRequest', pulsegen, 'output') sim.schedule(simdt=25e-6, plotdt=25e-5) for t in range(10): start = datetime.now() sim.run(1.0) end = datetime.now() delta = end - start print 'Ran', t+1, '-th second in', delta.seconds + 1e-6 * delta.microseconds sim.save_data_h5('threecells.h5')